KR20100010122A - Underground laying water tank and construction method of it - Google Patents

Abstract

PURPOSE: A water tank for underground laying and a construction method are provided to facilitate production for the water tank, to lengthen lifetime of the water tank by reinforcing structure of a slide plate, and to dually seclude water leakage. CONSTITUTION: A water tank for underground laying includes a side plate(30) laid under the ground. The slide plate comprises: an inner shell(33); a plurality of inner side reinforcing pipes(34) which are formed into a round A-frame and reinforces deformation of the inner shell and in which constant interval is separated into a height direction of the inner shell; a plurality of outside reinforcing pipes(35) which has same length as the height of the inner shell and is vertically installed in the height direction of the inner shell and is welded outside of the inner side reinforcing pipe; an outer tube(38) in which deformation is reinforced with the outside reinforcing pipe; and a concrete part(39) which is poured between the inner shell and outer tube.

Description

Underground Laying Water Tank and Construction Method of it}

The present invention relates to a water tank, and more particularly, to an underground tank and a construction method thereof, which is manufactured integrally by reinforcing the structure of the side plate to withstand earth pressure and placing concrete.

In general, a large water tank installed outdoors or on the roof of a building is made of metal, and a storage chamber is provided therein, and upper and lower plates are provided at upper and lower sides, and a cylindrical side plate is provided between the upper and lower plates.

The side plate of the conventional water tank simply consists of a cylindrical wall of metal material, and its support force or reinforcement is very poor when used for a long time.

In order to improve this problem has been reinforced by forming a flange on the upper and lower sides of the water tank to weld them to each other.

The side plate of the water tank is formed by bending the flange so as to form a flange through a bending process and then round again.

Therefore, there is a problem that the manufacturing process is not easy because the process of bending and bending the flange is not easy because the process of bending and bending.

On the other hand, the conventional water tank is mostly installed on the ground. Therefore, a water tank that occupies a lot of space on the ground and causes limitations in the installation place has been proposed to be buried underground. However, when the general water tank is buried underground, it is affected by the earth pressure and the deformation of the water tank occurs, so the life is shortened, so the general water tank cannot be buried underground.

Therefore, in order to embed the water tank underground, the reinforcement structure of the water tank is absolutely necessary, and a manufacturing method and a construction method of the underground tank for underground embedding having such a reinforcement structure are urgently required.

The present invention has been made to solve the above problems, an object of the present invention is to provide a water tank for underground embedding and construction method that can be buried underground by reinforcing the water tank side plate.

In addition, another object of the present invention is to provide a water tank for underground embedding and construction method to improve the strength by strengthening the structure, easy to manufacture and reduce the man-hour.

Underground buried water tank of the present invention for achieving the above object is the upper and lower plates (10, 20) each formed with a flange (11) (21) on the outside; The cylindrical shape forming the side of the water tank, the upper and lower portions are welded to the flange (11, 21) of the upper and lower plates (10, 20), respectively, the inner cylinder 33 for receiving water therein, and the bending It is formed to be rounded by the cross-section is rectangular and surrounds the inner cylinder 33 is welded to the inner cylinder 33 to reinforce the deformation of the inner cylinder 33 and spaced apart at regular intervals in the height direction of the inner cylinder 33 Two inner reinforcement pipes 34, the cross section is square and has the same length as the height of the inner cylinder 33, and is installed perpendicular to the inner reinforcement pipe 34 in the height direction of the inner cylinder 33 and the inner reinforcement A plurality of outer reinforcement pipes 35 welded to the outside of the pipe 34 and spaced apart at regular intervals in the circumferential direction of the inner reinforcement pipe 34, and welded to the outside of the outer reinforcement pipe 35 to reinforce the outer reinforcement. The deformation is reinforced by the pipe 35 Outer cylinder 38, the upper and lower portions of which are welded to the flanges 11 and 21 of the upper and lower plates 10 and 20, respectively, and the concrete portion 39 cast between the inner cylinder 33 and the outer cylinder 38. It is made of), characterized in that comprises a; side plate (30) buried underground.

In addition, the inner cylinder 33 is formed by butt welding a plurality of cylinders 32 formed by butt welding or overlapping the left and right end portions of the plurality of plates 31 with the adjacent plate 31, the outer cylinder ( 38 is characterized in that the plurality of cylinders 37 formed by butt welding or overlapping the left and right end portions of the plurality of plates 36 with the adjacent plates 36 are formed by butt welding up and down.

In addition, the inner reinforcement pipe 34 is welded to a portion welded up and down of the inner cylinder 33, the cylinder 32 is characterized in that to reinforce the upper and lower welded portions of the cylinder (32).

In addition, the outer reinforcement pipe 34 is welded to the welded portions of the left and right ends of the plate 36 of the cylinder 38, the cylinder 37 to reinforce the welded portions of the left and right ends of the plate 36 of the cylinder 37. It features.

In addition, the underground tank laying method according to the present invention comprises the steps of: a) excavating the ground on which the water tank is to be embedded; b) constructing the foundation 1 on the excavated bottom surface; c) installing a lower plate 20 having a flange 21 formed on an outer side of the constructed base 1; d) welding a lower portion of the inner cylinder 33 having a cylindrical shape to an upper portion of the flange 21 of the installed lower plate 20; e) a plurality of inner reinforcing pipes 34 formed to be rounded by bending and surrounding the inner cylinder 33 which is rectangular in cross section and spaced apart at regular intervals in the height direction of the inner cylinder 33; Welding outside of 33); f) The cross section is square and has the same length as the height of the inner cylinder 33 and is installed perpendicular to the inner reinforcement pipe 34 in the height direction of the inner cylinder 33 and the circumferential direction of the inner reinforcement pipe 34. Welding a plurality of outer reinforcement pipes (35) spaced at regular intervals to the outside of the inner reinforcement pipes (34); g) welding the inner and lower portions of the cylindrical outer cylinder 38 to the welded outer reinforcement pipe 35 and the flange 21 of the lower plate 20, respectively; h) placing and curing concrete between the inner cylinder 33 and the outer cylinder 38; i) welding the upper portions of the inner cylinder 33 and the outer cylinder 38 to the flange 11 of the upper plate 10, respectively; j) backfilling the soil to the outside of the outer cylinder 38; Characterized in that comprises a.

In addition, filling the interior of the inner cylinder 33 between steps g) and h); Characterized in that further comprises.

The present invention is easy to manufacture a water tank by reinforcing the water tank side plate with a reinforcement pipe and forming a side plate by placing concrete without the need for additional formwork and reinforcement inside the concrete, the inner cylinder and the outer cylinder to earth pressure by reinforcing pipe By preventing the deformation by forming a side plate there is an advantage that can extend the life of the water tank. In addition, when the inner cylinder and the outer cylinder formed by welding the plate by reinforcing pipes to reinforce the welded portion has a rigid structure, there is an effect of blocking the leakage double. In addition, unlike the conventional water tank side plate, there is no need for a bending process for forming a flange, no bending process for the plate, and only a bending process and a welding process for the reinforcement pipe, which is easy to process, require little man-hours and are easy to manufacture. This has the effect of improving productivity.

Hereinafter, a water tank according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a water tank for underground laying according to the present invention, Figures 2 and 3 are cross-sectional view showing the side plate structure of the water tank for underground laying according to the present invention, Figures 4a to 4h according to the present invention The process chart showing the construction method of underground tanks.

As shown, the underground tank for underground embedding according to the present invention 100 is welded to the upper plate 10 and the lower plate 20 and the upper plate 10 and the lower plate 20, the cylindrical shape and the inner cylinder 33 and It consists of an outer cylinder (38) and has a double structure and is reinforced with reinforcing pipes (34, 35) inside to withstand earth pressure, and is made of side plates (30) cured by concrete.

Underground buried water tank 100 according to the present invention is made of the upper plate 10 and the lower plate 20 and the side plate 30, like the general water tank, the structure of the side plate 30 is different.

The upper plate 10 is welded to the upper portion of the side plate 30, it is made by welding a plurality of flat plate.

The lower plate 20 is welded to the lower side of the side plate 30, and is made by welding a plurality of flat plate.

The inside of the water tank 100 is formed with a pipe member for supplying and draining water is the same as or similar to the general technique. In addition, the internal structure of the water tank 100 may be a structure of the water tank disclosed in Patent Registration No. 10-0757496 (name of the invention: a water tank equipped with a water treatment device) applied and registered by the present applicant. .

The upper plate 10 and the lower plate 20 are provided with flanges 11 and 21 on the outer side to be welded to the side plate 30, respectively.

The side plate 30 has an inner cylinder 33 for receiving water therein, an inner reinforcement pipe 34 welded to the inner cylinder 33 by surrounding the inner cylinder 33, and a height direction of the inner cylinder 33. The outer reinforcement pipe 35 welded to the inner reinforcement pipe 34 at right angles, the outer cylinder 38 welded to the outside of the outer reinforcement pipe 35, the inner cylinder 33 and the outer cylinder 38. It is made of a concrete portion 39 that is poured between, it is buried underground.

The inner cylinder 33 and the outer cylinder 38 has a cylindrical shape forming the side of the water tank.

The inner cylinder 33 is welded to the flanges 11 and 21 of the upper and lower plates 10 and 20, respectively, to receive water therein.

The inner reinforcement pipe 34 is rounded by bending and has a square cross section and is welded to the inner cylinder 33 to surround the inner cylinder 33 to reinforce the deformation of the inner cylinder 33. In addition, the inner reinforcement pipe 34 has a plurality of spaced apart at regular intervals in the height direction of the inner cylinder (33). The inner reinforcement pipe 34 is fillet welded to the inner cylinder 33. The inner reinforcement pipe 34 may be bent round the long pipe to weld the inner cylinder 33 to surround the inner cylinder 33, but may be butt welded end of the pipe, the plurality of pipes bent round Butt welding to form a long can be welded around the inner cylinder (33). That is, the inner reinforcement pipe 34 may be formed of one long pipe, or may be formed by butt welding a plurality of pipes.

In this case, when the water tank is large, the inner cylinder 33 is butt-welded up and down the plurality of cylinders 32 formed by butt or overlapping the left and right end portions of the plurality of plates 31 with the adjacent plates 31. It can be formed as. In this case, it is preferable that the inner reinforcement pipe 34 is welded to a portion welded up and down of the inner cylinder 33 and the cylinder 32 to reinforce the upper and lower welded portions of the cylinder 32.

As described above, unlike the conventional method of bending and forming the flange after forming the flange through the bending process when forming the inner cylinder 33, the inner side bent roundly after forming the cylinder 32 by welding without bending the plate 31. Since the welding is wrapped around the reinforcement pipe 34, the number of maneuvers is reduced, and the inner reinforcement pipe 34 is bent without bending the plate on which the flange is formed.

In addition, the inner reinforcement pipe 34 may be provided in one line (see FIG. 2), and may be provided in two lines (see FIG. 3). When the inner reinforcement pipe 34 is provided in two lines, the contact portions of the outer circumference of the inner reinforcement pipe 34 are butt welded to each other and positioned at the center of the upper cylinder 32 and the lower cylinder 32. The inner reinforcement pipe 34 located in the upper portion is fillet welded with the cylinder 32 located in the upper portion, and the reinforcement pipe 34 positioned in the lower portion may be fillet welded with the cylinder 32 positioned in the lower portion thereof.

In addition, it is preferable that the inner reinforcement pipe 34 is fillet welded to the inner cylinder 33 and the upper plate 10 and the lower plate 20 at the upper and lower ends of the inner cylinder 33, respectively.

The outer reinforcement pipe 35 has a square cross section, has the same length as the height of the inner cylinder 33, and is installed perpendicular to the inner reinforcement pipe 34 in the height direction of the inner cylinder 33 and the inner reinforcement pipe. It is welded to the outside of the 34. At this time, the outer reinforcement pipe 35 is spaced apart at regular intervals in the circumferential direction of the inner reinforcement pipe 34 is a plurality. The outer reinforcement pipe 35 is fillet welded to the inner reinforcement pipe 34.

The outer cylinder 38 is welded to the outside of the outer reinforcement pipe 35 so that the deformation is reinforced by the outer reinforcement pipe 35 and the upper and lower flanges 11 and 10 of the upper and lower plates 10 and 20 ( Respectively).

At this time, when the water tank is large, the outer cylinder 38, like the inner cylinder 33, a plurality of cylinders formed by butt or overlapping welding the left and right end portions of the plurality of plates 36 with the adjacent plate 36 ( 37) may be formed by butt welding up and down. In this case, the outer reinforcement pipe 34 is welded to the welded portions of the right and left ends of the plate 36 of the outer cylinder 38 and the cylinder 37 to reinforce the welded portions of the left and right ends of the plate 36 of the cylinder 37. It is preferable.

As described above, the present invention enables the reinforcement pipes 34 and 35 to reinforce the welded portions of the inner cylinder 33 and the outer cylinder 38 and to reinforce the strength of the inner cylinder 33 and the outer cylinder 38, thereby making it possible to manufacture a rigid water tank. The leak can be doubled.

The concrete portion 39 is poured between the inner cylinder 33 and the outer cylinder 38 to be cured.

Underground buried water tank having the above structure is to be constructed in the following way.

First, the ground on which the water tank is to be embedded is excavated, and the foundation 1 is constructed on the excavated lower surface (FIG. 4A). At this time, the construction of the foundation (1) uses a well-known method of filling the rubble and compacting the concrete.

The lower plate 20 in which the flange 21 was formed in the outer side in the upper part of the constructed base 1 is installed (FIG. 4B).

The lower portion of the inner cylinder 33 of cylindrical shape is welded to the upper portion of the flange 21 of the installed lower plate 20, and is rounded by bending, and the cross section is square and surrounds the welded inner cylinder 33. A plurality of inner reinforcing pipes 34 spaced at regular intervals in the height direction of the inner cylinder 33 are welded to the outside of the welded inner cylinder 33.

In this case, when the water tank is large, the inner cylinder 33 includes a plurality of cylinders 32 formed by abutting or overlapping welding (FIG. 4C) the left and right end portions of the plurality of plates 31 with the adjacent plates 31. It may be formed by butt welding up and down (FIG. 4D). In this case, it is preferable that the inner reinforcement pipe 34 is welded to the upper and lower welded portions of the inner cylinder 33 and the cylinder 32 to reinforce the upper and lower welded portions of the cylinder 32 (FIG. 4E).

The outside of the welded inner reinforcement pipe 34 has a cross section square and has the same length as the height of the inner cylinder 33 and is installed perpendicular to the inner reinforcement pipe 34 in the height direction of the inner cylinder 33 and A plurality of outer reinforcing pipes 35 spaced apart from each other in the circumferential direction of the inner reinforcing pipe 34 are welded (FIG. 4F).

The inner and lower portions of the cylindrical outer cylinder 38 are welded to the welded outer reinforcement pipe 35 and the flange 21 of the lower plate 20, respectively.

At this time, when the water tank is large, the outer cylinder 38, like the inner cylinder 33, a plurality of cylinders formed by butting or overlapping welding the left and right end portions of the plurality of plates 36 with the adjacent plate 36 ( 37) may be formed by butt welding up and down (FIG. 4G). In this case, the outer reinforcement pipe 34 is welded to the welded portions of the right and left ends of the plate 36 of the outer cylinder 38 and the cylinder 37 to reinforce the welded portions of the left and right ends of the plate 36 of the cylinder 37. It is preferable.

Placing concrete between the inner cylinder 33 and the outer cylinder 38 and curing to form the concrete portion 39 to complete the side plate 30 (FIG. 4H). Concrete can be directly poured, but in order to prevent deformation of the inner cylinder 33 due to its own weight of concrete, it is preferable to fill the interior of the inner cylinder 33 and pour concrete.

As described above, the present invention forms a side plate 30 by welding the reinforcing pipe between the inner cylinder 33 and the outer cylinder 38 in a lattice form and reinforcing the steel plate directly, so that the reinforcing bar is formed in a separate formwork and concrete. By forming the side plate without the need to facilitate the production of the water tank.

After completion of the side plate 30, the upper portions of the inner cylinder 33 and the outer cylinder 38 are welded to the flange 11 of the upper plate 10, respectively (FIG. 4I).

The earth and sand are filled to the outside of the outer cylinder 38 (FIG. 4J) to complete the embedding of the water tank 100.

The present invention described above is limited by the above-described embodiments and the accompanying drawings, as a person of ordinary skill in the art can make various substitutions without departing from the technical spirit of the present invention. It is not.

1 is a perspective view showing a water tank for underground laying according to the present invention.

2 and 3 is a cross-sectional view showing the side plate structure of the underground tank for laying underground according to the present invention.

Figure 4a to 4h is a process chart showing the construction method of the underground tank for laying underground according to the present invention.

Explanation of symbols on the main parts of the drawings

10: top plate 20: bottom plate

11, 21: flange 30: side plate

33: inner cylinder 34: inner reinforcement pipe

35: outer reinforcement pipe 31, 36: plate

32, 37: cylinder 38: outer cylinder

39: concrete portion 100: water tank

Claims (9)

Upper and lower plates 10 and 20 having flanges 11 and 21 formed on the outside thereof, respectively; The cylindrical shape that forms the side of the water tank, An inner cylinder 33 having upper and lower portions welded to the flanges 11 and 21 of the upper and lower plates 10 and 20, respectively, to receive water therein; It is formed to be round by bending and the cross section is square and is welded to the inner cylinder 33 by surrounding the inner cylinder 33 to reinforce the deformation of the inner cylinder 33 and spaced at a predetermined interval in the height direction of the inner cylinder 33. A plurality of inner reinforcement pipes 34, The cross section is square and has the same length as the height of the inner cylinder 33 and is installed perpendicular to the inner reinforcement pipe 34 in the height direction of the inner cylinder 33 and welded to the outside of the inner reinforcement pipe 34. A plurality of outer reinforcement pipes 35 spaced apart at regular intervals in the circumferential direction of the inner reinforcement pipe 34; The outer reinforcement pipe 35 is welded to the outside of the outer reinforcement pipe 35 and the deformation is reinforced by the upper and lower parts of the upper and lower plates (10, 20) respectively welded to the flange (11, 21) Outer cylinder 38, Underground buried water tank, characterized in that comprises a; consisting of a concrete portion 39, which is poured between the inner cylinder 33 and the outer cylinder 38, the side plate (30) buried underground. The method of claim 1, The inner cylinder 33 is formed by butt welding a plurality of cylinders 32 formed by butt or overlapping welding the left and right end portions of the plurality of plates 31 with the adjacent plate 31, The outer cylinder 38 is underground buried, characterized in that formed by butt welding a plurality of cylinders (37) formed by butt or overlapping welding the left and right end portions of the plurality of plates 36 with the adjacent plate 36 Water tank. The method of claim 2, The inner reinforcement pipe 34 is welded to the upper and lower welded portions of the inner cylinder (33) cylinder 32 to reinforce the upper and lower welding portions of the cylinder (32) underground underground water tank. The method of claim 2, The outer reinforcing pipe 34 is welded to the welded portions of the right and left ends of the plate 36 of the outer cylinder 38 and the cylinder 37 to reinforce the welded portions of the left and right ends of the plate 36 of the cylinder 37. Underground buried water tank. a) digging the ground where the water tank will be embedded; b) constructing the foundation 1 on the excavated bottom surface; c) installing a lower plate 20 having a flange 21 formed on an outer side of the constructed base 1; d) welding a lower portion of the inner cylinder 33 having a cylindrical shape to an upper portion of the flange 21 of the installed lower plate 20; e) a plurality of inner reinforcing pipes 34 formed to be rounded by bending and surrounding the inner cylinder 33 which is rectangular in cross section and spaced apart at regular intervals in the height direction of the inner cylinder 33; Welding outside of 33); f) The cross section is square and has the same length as the height of the inner cylinder 33 and is installed perpendicular to the inner reinforcement pipe 34 in the height direction of the inner cylinder 33 and the circumferential direction of the inner reinforcement pipe 34. Welding a plurality of outer reinforcement pipes (35) spaced at regular intervals to the outside of the inner reinforcement pipes (34); g) welding the inner and lower portions of the cylindrical outer cylinder 38 to the welded outer reinforcement pipe 35 and the flange 21 of the lower plate 20, respectively; h) placing and curing concrete between the inner cylinder 33 and the outer cylinder 38; i) welding the upper portions of the inner cylinder 33 and the outer cylinder 38 to the flange 11 of the upper plate 10, respectively; j) backfilling the soil to the outside of the outer cylinder 38; Underground buried water tank construction method comprising a. The method of claim 5, wherein The inner cylinder 33 is formed by butt welding a plurality of cylinders 32 formed by butt or overlapping welding the left and right end portions of the plurality of plates 31 with the adjacent plate 31, The outer cylinder 38 is underground buried, characterized in that formed by butt welding a plurality of cylinders 37 formed by butt or overlapping the left and right end portions of the plurality of plates 36 with the adjacent plate 36 Water tank construction method. The method of claim 6, The inner reinforcing pipe (34) is welded to the upper and lower welded portions of the inner cylinder (33) cylinder 32 to reinforce the upper and lower welded portions of the cylinder (32) underground construction method. The method of claim 6, The outer reinforcing pipe 34 is welded to the welded portions of the right and left ends of the plate 36 of the outer cylinder 38 and the cylinder 37 to reinforce the welded portions of the left and right ends of the plate 36 of the cylinder 37. Construction method of underground tanks The method according to any one of claims 5 to 8, filling the interior of the inner barrel 33 between g) and h); Underground buried water tank construction method characterized in that it further comprises.

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